Enabling Online Robust Barcode-Based Visible Light Communication With Realtime Feedback

Barcode-based visible light communication (VLC) over screen-camera links has attracted great research interest recently due to its many desirable properties, including being free of charge, free of complex network configurations, and its well-controlled communication security. However, existing VLC systems over screen-camera links suffer from low-communication capacity and reliability, and a lack of transmission feedback from the receiver. In this paper, we design RainBar+, an online robust high-goodput color barcode-based VLC system with realtime feedback, to fully guarantee the communication reliability and exploit the communication capacity under a different link quality. To the hest of our knowledge, this is the first system that provides a feasible feedback mechanism to enable the sender to retransmit the last frames and optimize the barcode configurations. To this end, RainBar+ is designed from three orthogonal perspectives: optimizing the encoding capacity of each frame, fully utilizing the transmission capacity of the sender by solving the frame synchronization problem and adaptively adjusting the barcode configurations, and enabling the selective retransmission via realtime feedback with the speaker-microphone link. Extensive experiments with two commercial off-the-shelf smartphones show that RainBar+ outperforms existing systems and can support realtime high-goodput data communication in dynamic environments.